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    The Perfectionists: How Precision Engineers Created the Modern World

    Page 37
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      Delambre, Jean-Baptiste, 335, 337

      Deptford, HMS, 35

      Dickens, Charles, 58

      Discovery, 231–32, 233

      dispersion, 225

      Disraeli, Benjamin, Vivian Grey, 74n

      Doppler-based navigation systems, 259–65, 267

      principle behind, 261–62

      shortcomings of, 264–65

      Sputnik’s radio signals and, 259–61

      U.S. Navy Transit satellites and, 262–64, 263

      Doppler effect, description of, 260–61

      Doré, Gustave, 117

      doublets (lenses), 225–26

      Drive On! (Setright), 129

      drop-forges, 100, 102

      Dupin, Charles, 117

      Earth:

      shape of, 335

      unit of length based on meridian of, 334–36, 337, 341–42

      Easton, Roger, 260, 265–68

      Edison, Thomas A., 171

      Edison Illuminating Company, 158

      Edmunds, Henry, 140, 143

      Einstein, Albert, 20–21, 229, 300, 301–2, 348

      electrical discharge machining (EDM), 205

      electricity, generated by turbines, 186–87

      electronics:

      trend toward ultraprecision in, 276–77, 278–80

      see also integrated circuitry; microprocessor chips; transistors

      electrons, atomic timekeepers and, 351, 352

      Eliot, T. S., “Rhapsody on a Windy Night,” 13n

      Elizabeth, Queen, 195

      encaged roller bearings, 33

      Endeavour, Hubble repair mission of, 248–50

      Endo, Miki, 323–24

      ephemeris time, 350

      escapement mechanisms, 33

      Essen, Louis, 352

      Euclid, Optics, 221

      European Space Agency, 235, 245

      Evans, Chris, 65

      Evans, Oliver, 102

      Everest, Sir George, 273n

      Explorer I, 261

      extreme ultraviolet (EUV) radiation, 296–97

      eyes:

      lenses in, 221–22

      spectacles and, 221–23

      fabs, or fabrication plants, 278

      Intel’s Chandler fab (Fab 42), 275–76, 277–78

      Fairbairn, Sir William, 53

      Fairchild Semiconductor, 279, 284–88

      witnessing and signing of notebook pages at, 285–86n

      Falk, O. T., and Partners, 184–85

      Fallen Idol, The, 104

      Feynman, Richard, 213n

      Fitzgerald, F. Scott, The Crack-Up, 307

      fixtures (devices that hold workpiece absolutely secure), 100n, 102

      flatness:

      of surface plates, 75–76, 119–20

      of Whitworth’s billiard table, 124–25

      flintlocks, see muskets, flintlock

      flour-milling machinery, 102

      f number of lens, 219n

      Ford, Henry, 129, 131, 155–67, 157, 276

      altruistic motives of, 155–56

      early years of, 156–58

      first motor car experiments of, 158–59

      gauge blocks, or Jo blocks, utilized by, 169–71

      mass production assembly line created by, 160–67

      Royce compared to, 131, 155–56, 158–59, 165–66

      Westinghouse threshing engines in origin story of, 156–58

      Ford Foundation, 166

      Ford Model T (Tin Lizzie), 129, 155–56, 157, 160–67

      decreases in price of, 165, 167

      magneto assembly for, 164–65

      production line for, 160–67

      Ford Motor Company, 152, 155–67

      complaints about SKF bearings at, 170

      Edsel, 236

      gauge blocks, or Jo blocks, introduced at, 169–71

      incorporation of, 131, 159

      interchangeable parts essential at, 161n, 166, 170

      Model A, 159–60

      Model T, see Ford Model T (Tin Lizzie)

      precision’s role at Rolls-Royce vs., 131, 166–67

      production line at, 160–65

      “For want of a nail . . .” proverb, 244

      foundries, electronic, 278n

      fountain pens, 58

      France:

      Anglo-French rivalry over inventions and, 87n

      automobiles made in, 137–39

      British wars with, 39n, 66, 73

      decimal time in, 349n

      postrevolutionary Republican Calendar in, 333–34

      social implications of precision as concern in, 90, 92, 117

      standards for length and mass created by, 334–40; see also metric system

      system of interchangeable parts developed in, 87–94, 97, 98, 102

      Franklin, Benjamin, 90, 222–23

      French Academy of Sciences, 335

      French Revolution, 59, 66, 92

      frequency:

      Doppler effect and, 260–61

      units of measurement and, 347–48

      friction problem, in early clocks, 32–33, 35

      Gainsborough, Thomas, 38–39

      Galileo, 222, 332, 348

      Galileo global navigation system, 270

      Gascoigne, William, 77

      Gaudy Night, 105

      gauge blocks, or Jo blocks, 167–71, 169

      author’s introduction to, 2–4

      Ford Motor Company and, 169–71

      interchangeable parts and, 170

      Johansson’s invention of, 167–68

      gauges:

      go and no-go, for ensuring cannonball fit, 87

      in gun manufacture, 89, 98–99, 100

      gearwheels:

      from Ancient Greece (Antikythera mechanism), 24–27

      producing, 4–5

      uses for, 5–6

      wooden, in Harrison’s clocks, 32–33

      Gee, 259, 262

      George III, King, 36, 74n

      George VI, King, 194–95

      Germany, turbojet-powered aircraft developed by, 179, 184, 190–91, 195

      Gernsback, Hugo, 181

      glassblowers, scientific, 7

      Glass Menagerie, The (Williams), 255

      Global Positioning System (GPS), 37, 265–74

      Doppler-based navigation system as precursor of, 259–65, 267

      Easton’s invention of, 260, 265–68

      ever-more-precise calculations of, 272–73

      freed for civilian use, 269–70

      major achievements of nineteenth-century cartography checked against data from, 273n

      military uses of, 269

      other nations’ similar systems, 270

      Parkinson’s vision for, 267–68, 268

      run from tightly guarded Schriever Air Force Base, 270–72, 271, 272

      time data for, 352–53

      GLONASS, 270

      Gloster Aircraft Company:

      experimental aircraft powered by jet engine (Gloster E28/29, or Pioneer), 190, 191–94

      Gloster Meteor fighters, 192

      Goddard Space Flight Center (Maryland), 234, 250–51, 294

      Gould, Rupert, 34n

      graphene, 298

      grasshopper escapement, 33

      gravitational constant, 298

      gravitational waves, detection of, 20–21, 300–306

      see also LIGO (Laser Interferometer Gravitational-Wave Observatory)

      gravity:

      Bramah’s lock design and, 57

      clock mechanisms and, 33, 354

      link between time and, 354–55

      pendulum swings and, 33, 333, 349

      Whitworth’s measuring machine and, 121, 122

      Great Britain:

      Anglo-French rivalry over inventions and, 87n

      divergent paths of industry in U.S. vs., 114–15

      trading fortunes and, 31

      War of 1812 and, 81–85

      wars fought by, in eighteenth and early nineteenth centuries, 39, 66–71

      Great Exhibition of the Works of Industry of All Nations (London, 1851), 111–27, 112

      arrangemen
    t of exhibits at, 115–16

      Bramah’s “challenge lock” picked at, 112n, 124, 125–27

      Crystal Palace built for, 112, 113–14

      extraordinary zeitgeist of the time and, 111–13

      financing of, 113

      great big iron machines displayed at, 114–16, 117–18

      Hunt’s concern about social implications of machines displayed at, 116–17

      origin of idea for, 112–13n

      Whitworth’s instruments and tools displayed at, 118–23

      Great Trigonometric Survey of India, 273n

      Greece, Ancient:

      astronomers from, 26n

      gearwheels from (Antikythera mechanism), 24–27, 36

      lost-wax method in, 204

      measurement of time in, 27

      Greenwich Royal Observatory, Harrison’s clocks at, 30–37

      restoration of, 34n

      winding of, 30–31

      Gribeauval, Jean-Baptiste Vaquette de, 87, 89, 92, 98

      Guier, William, 259–62

      Gulf War of 1991, 269

      guns:

      Blanchard’s lathe for stocks of, 101–2

      both precision and accuracy crucial in making of, 105

      breech-loaded single-shot rifles, 97–98

      French system of interchangeable parts applied to American precision-based manufacturing of, 97–100

      Johansson’s invention of gauge blocks, or Jo blocks, and, 167–68

      machines first used to make components of, 98, 99–100

      rudiments of mass production assembly lines in manufacture of, 161n

      Victoria’s opening shot in 1860 Grand Rifle Match, 107–10

      see also muskets, flintlock

      Hall, Bishop Joseph, Works, 331

      Hall, John, 97–98, 99–100, 102

      handcrafting:

      Antikythera mechanism and, 24–25, 27

      Blanc’s standardization system and, 89–90, 92, 98

      eliminated in Ford’s assembly line, 165, 166–67

      Japanese appreciation for, 308, 309–10, 314, 316, 319–29

      machine tools vs., 35, 38, 60, 72–73, 98–99

      at Rolls-Royce, 6, 131, 152–55, 165, 166

      social consequences of move away from, 72–75, 89–90, 116–17

      and survival of craftsmanship in France, 92

      in Whitney’s gun factory, 96–97

      Hanford, Wash., cleanup site, 19–20

      Harpers Ferry Armory (Va.), 98, 99, 102, 161n

      Harrison, John, 24, 30–37, 47, 67, 105, 267n

      balance mechanisms in clocks made by, 33, 35

      Board of Longitude prize and, 30, 31, 32, 34, 35–36

      large pendulum clocks made by (H1, H2, and H3), 30–31, 32–34, 35

      restoration of clocks made by, 34n

      sea watches made by (H4 and K1), 31–32, 34–36

      testing of clocks made by, 34, 35–36, 39

      winding of clocks made by, 30–31, 33, 35

      Harrison, William, 35–36

      Hattori, K., and Company, 311–13

      Hattori, Kintaro, 310–12

      Heinkel Company, 184, 195

      Heinkel He 178, 190–91

      Heisenberg, Werner, 212–13, 298

      Die Physik der Atomkerne, 275

      Herbert, George, 244n

      Herschel family (William, Caroline, John, and Alexander), 229–30n

      Hiroshima, atomic bomb dropped on, 281

      Hitler, Adolf, 187, 191

      Hobbs, Alfred C., 124, 125–27

      Hoerni, Jean Amédée, 284–85, 286n, 287

      Hooker, Sir Stanley, 139

      hour:

      defining, 28, 334, 349

      displayed by mechanical clocks, 28–29

      Hubble, Edwin, 2321

      Hubble Space Telescope, 229–53, 230

      cost of, 232

      delays in launch date of, 243n

      first images from (First Light), 234–35, 251

      flaw in main mirror of, 234, 234–43; see also Perkin-Elmer Corporation

      High Speed Photometer in, 247, 248, 250

      money matters and, 237n

      news of failure announced to press, 235–36

      placed into orbit, 230–32, 233

      public reverence for, 229–30

      repair of, 244–51

      second images from (Second Light), 251–52

      size and appearance of, 232–33

      teacup affair and, 238

      ultimate success of, 252–53

      Wide Field and Planetary Camera in (Wiffpic), 247–48, 249

      Hucknall Casings and Structures plant (Rolls-Royce), 209–10, 211, 229

      Hunt, Robert, 116–17

      hydraulic press, 57–58

      India, Great Trigonometric Survey of, 273n

      Individual and the Universe, The (Lovell), 215

      Industrial Revolution, 39, 41, 44, 51, 73, 74n, 111, 304

      integrated circuitry, 286–99

      devices made possible by, 287–88

      Noyce’s work in genesis of, 286, 287, 288n

      printing with photolithographic machines, 277, 277–78, 286–87, 294

      see also microprocessor chips; transisters

      Intel, 288–92

      ASML machines bought by, 275–76, 277, 277–78

      Chandler, Ariz., fabrication plant of (Fab 42), 275–76, 277–78, 291–92

      first-ever commercially available microprocessor made by (Intel 4004), 288–89, 290, 292

      founding of, 288

      mutual dependency of ASML and, 278

      interchangeable parts, 63, 71, 105, 114, 276, 312

      in Ford’s mass production assembly lines, 161n, 166, 170

      for guns, 84–85, 86, 87–100

      system of, developed in France, 87–94, 97, 98, 102

      interferometers:

      classic, 300

      laser, 242–43

      LIGO (Laser Interferometer Gravitational-Wave Observatory), 20–21, 299–306, 303, 305

      null connector as, 240–41

      internal combustion engine, 158

      aircraft powered by, 178–213; see also jet engines

      International Astronomical Union, 344

      International Committee on Weights and Measures (1960), 345–46

      International Metre Commission (1872), 338

      International Prototype Kilogram (IPK), 339

      International Prototype Meter (IPM), 339

      International System of Units (SI), 16–17n, 346

      iron, 38, 39

      cannon making and, 39, 41–44

      Japanese handcrafted objects made of, 309–10

      lathes made of, rather than wood, 61, 64

      machines to manufacture pulley blocks made of, 71

      smelting and forging, 40–41, 43, 49

      steam engines made of, 46, 48–52

      Wilkinson’s cylinder-boring technique for, 42–44, 49–52, 304–6

      Iron Bridge of Coalbrookdale, 41

      Ito, Tsutomi, 321–22

      Jacula Prudentum, 244n

      James Webb Space Telescope, 231n, 294, 295, 299

      Janety, Marc Étienne, 336, 337

      Japan, 308–29

      bamboo objects handcrafted in, 325, 326

      fondness for handcrafting in, 308, 309–10, 314, 316, 319–29

      Great Tohoku Earthquake and Tsunami in (2011), 322, 323–25

      Living National Treasures of, 325–26

      rigorous appreciation of perfect in, 308–9, 314

      timekeeping traditions in, 310–11

      urushi (handmade lacquerware) of, 326–28, 327

      Westernization in, 310, 311 see also Seiko

      Japanese Railways, 313–14

      Jay, John, 92–93

      Jefferson, Thomas, 52

      Blanc’s flintlock system and, 90, 92–94, 96

      Whitney’s contract and demonstration and, 95, 96

      Jet Age, inauguration of, 193

      jet engines, 173–213

      alloys for blades in, 200, 201, 203

      Americans’ initial lack of
    interest in, 179

      bird strikes and, 203n

      British public told of, 194

      complexity within, 196–97

      experimental aircraft fitted with, 190, 191–94

      financial backing for development of, 184–85, 189

      first passenger and freight aircraft with, 198–99

      French forerunner of, 179

      German development of, 179, 184, 190–91, 195

      hot environment in, 187, 199–201

      invention of, 178–94, 179; see also Whittle, Frank

      keeping blades cool inside, 197–98, 198, 199–203, 204, 206

      manufacturing process for single-crystal blades in, 203–6

      no tolerance whatsoever in making of, 206–7

      power of piston engine vs., 182–83

      propulsive jet of air produced by, 182, 187

      Quantas Flight 32 and failure of, 174–78, 178, 196, 207–12, 208, 229

      revolutionary novelty of idea for, 186

      Rolls-Royce, 196–213, 205; see alsoRolls-Royce jet engines

      single moving part in, 180

      stress of takeoff and landing cycles on, 210

      testing of prototypes, 187–90

      turbine blade efficiency and, 198

      Whittle’s eureka moment and, 182–83

      Whittle’s patent and, 183–84

      Jet Propulsion Laboratory, or JPL (Pasadena), 247–48, 350

      Jo blocks, see gauge blocks, or Jo blocks

      Johansson, Carl Edvard, 3, 167–71

      bought out by Ford, 170–71

      gauge blocks, or Jo blocks, created by, 167–68

      Johns Hopkins University:

      Applied Physics Laboratory (APL) at, 259–62

      Space Telescope Science Institute at, 234, 251

      Johnson, Claude “CJ,” 148–50, 151

      Jones, Alexander, 27

      Kai Tak Airport (Hong Kong), 195–96

      kelvin, definition of, 346

      Kiev, author photographed with Rolls-Royce outside city gates of, 133–34

      Kilby, Jack, 288n

      kilogram, 336–40, 346–47

      cast in platinum as étalon (standard), 337, 339–40, 348

      now defined in terms of speed of light, 348

      relationship of meter to, 336–37

      see also metric system

      Kilogram of the Archives, 336

      Klein bottle, 7n

      Kodak, 237n

      Korean Air Lines Flight 007, shooting down of, 269

      krypton, standard unit of length based on, 344–45

      Kyoto, temples of, 308

      landscape photography, lenses for, 226

      lasers, 351

      in LIGO’s measuring instrument, 301, 305, 305–6

      in manufacture of microprocessor chips, 293–94, 296

      presumed to be precise, 242

      lathes, 61–65

      for gun stocks, designed by Blanchard, 101–2

      invention and evolution of, 61

      iron vs. wood, 61, 64

      Maudslay’s improvements to, 61–65

      screw-making, 63–64

      for shoe lasts, designed by Blanchard, 19n, 101

     


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